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    • 26. 发明专利
    • Liquid sample high-pressure differential scanning calorimeter device
    • 液体样品高压差示扫描量热器装置
    • JP2000074863A
    • 2000-03-14
    • JP25936598
    • 1998-08-27
    • Agency Of Ind Science & TechnolTerametsukusu Kkテラメックス株式会社工業技術院長
    • KAWAI SHOJIOBUCHI KAORUNAMIKAWA MASAKAZUMATSUMOTO MASAMITSU
    • G01K17/06G01N25/20
    • PROBLEM TO BE SOLVED: To measure the thermal physical property of protein under high pressure condition at real time by providing a sample vessel and reference vessel having pressure tightness of at least a specified value, and providing a high-pressure connector for simultaneously and similarly pressurizing both the pressure vessels and a high- pressure pump to be connected thereto.
      SOLUTION: A sample vessel 2 and a reference vessel 3 have pressure tightness of at least 10 MPa, and the reason for simultaneously and similarly pressurizing both the pressure vessels is that it is necessary to simultaneously raise the pressure to the same pressure since both the sample and reference vessels must be placed in the same environment. A high-pressure connector 4 connects a high-pressure pump 5 to the vessel 2 and the vessel 3. The vessel 2 is connected to the vessel 3, whereby both of them can be laid in the same pressure, and are connected to the pump 5, whereby both vessels can be simultaneously pressurized. This device is provided with the connector 4 for pressurizing the vessel 2 and the vessel 3, the high-pressure pump 5 and a pressure gauge 6. After the pressurization is performed to a prescribed pressure by this high-pressure pump 5, a general differential scanning calorie measurement is performed.
      COPYRIGHT: (C)2000,JPO
    • 要解决的问题:通过提供具有至少特定值的压力密封性的样品容器和参考容器来实时测量高压条件下的蛋白质的热物理性质,并提供用于同时且类似地加压的高压连接器 压力容器和与其连接的高压泵。 解决方案:样品容器2和参考容器3具有至少10MPa的压力密封性,并且同时且类似地对两个压力容器进行加压的原因在于,需要同时将压力提高到相同的压力,因为两个样品 参考船舶必须放在同一环境中。 高压连接器4将高压泵5连接到容器2和容器3.容器2连接到容器3,由此它们可以被放置在相同的压力下,并且连接到泵 5,由此两个容器可以同时加压。 该装置设置有用于对容器2和容器3,高压泵5和压力计6进行加压的连接器4.在通过该高压泵5将加压进行规定的压力之后, 进行扫描卡路里测量。
    • 27. 发明专利
    • High polymer electrolyte ammonium derivative
    • 高分子电解质氨基衍生物
    • JPH11280639A
    • 1999-10-15
    • JP8449598
    • 1998-03-30
    • Agency Of Ind Science & TechnolKagaku Gijutsu Senryaku Suishin Kiko工業技術院長財団法人 化学技術戦略推進機構
    • OGURO KEISUKEAZUMI KINSHIOKADA TATSUHIROONISHI KAZUOSEWA SHINGO
    • F03G7/00C08F8/30C08L101/00C08L101/16H02N11/00
    • Y02E70/10
    • PROBLEM TO BE SOLVED: To create high polymer actuator which does not have air pockets and has good response, by immersing ion-exchange resin formed parts with metal electrodes provided on the surface into alkyl ammonium ionic solution, and by creating potential difference between metal electrodes, to bend and deform plastic parts. SOLUTION: A high polymer electrolyte ammonium derivative 1 presented as a compact, lightweight, and flexible actuator for use in fields such as medical devices and industrial robots, is provided with a long and thin short flat ion- exchange resin formed part 2, and electrodes 3a and 3b mutually insulated from each other on the surface of the resin formed part 2. Then the resin formed part 2 is immersed in alkyl ammonium ionic solution, and by using potential difference between electrodes 3a, 3b, the resin formed part 2 becomes bent or deformed. One end of a pair of lead wires 4a, 4b is connected to electrodes 3a, 3b, respectively, and each lead wire 4a, 4b is connected to a power source 5.
    • 要解决的问题:为了制造不具有气穴并具有良好响应性的高聚合物致动器,通过将设置在表面上的金属电极的离子交换树脂形成部件浸渍在烷基铵离子溶液中,并通过在金属电极之间产生电位差 塑胶件弯曲变形。 解决方案:将高分子电解质铵衍生物1呈现为用于医疗器械和工业机器人领域的紧凑,重量轻且柔性的致动器,其具有形成第2部分的长而薄的短扁平离子交换树脂,电极 3a和3b在树脂形成部件2的表面上彼此相互绝缘。然后,将形成树脂的部件2浸渍在烷基铵离子溶液中,并且通过使用电极3a,3b之间的电位差,形成树脂的部件2变得弯曲 或变形。 一对引线4a,4b的一端分别连接到电极3a,3b,并且每个引线4a,4b连接到电源5。
    • 28. 发明专利
    • Pseudo-azeotropic composition
    • PSEUDO-AZEOTROPIC组合物
    • JPH11279098A
    • 1999-10-12
    • JP10204298
    • 1998-03-30
    • Agency Of Ind Science & TechnolResearch Institute Of Innovative Technology For The Earth工業技術院長財団法人地球環境産業技術研究機構
    • TAKADA NAOKADOYAMAMOTO HIROSHITAKUBO SEIJISEKIYA AKIRA
    • C11D7/50C07C43/12C09K5/04C11D3/44
    • PROBLEM TO BE SOLVED: To provide a hydrofluoroether composition exerting minimum influence on the global environment and having high performance as a cleaning solvent, a heat-transmission medium, etc.
      SOLUTION: This pseudo-azeotropic composition is selected from the following four compositions (i) to (iv); (i) a pseudo-azeotropic composition composed of 66-92 wt.% of HFE-245mf and 34-8 wt.% of HFE-254pc, (ii) a pseudo- azeotropic composition composed of 68-98 wt.% of HFE-245mf and 32-2 wt.% of HFE-347mcf, (iii) a pseudo-azeotropic composition composed of 67-98 wt.% of HFE-245mf and 33-2 wt.% of HFE-347pc-f and (iv) a pseudo-azeotropic composition composed of 55-96 wt.% of HFE-347mcf and 45-4 wt.% of HFE-347pc-f wherein HFE-245mf is CF
      3 CH
      2 OCHF
      2 , HFE-254pc is CHF
      2 CF
      2 OCH
      3 , HFE-347mcf is CF
      3 CF
      2 CH
      2 OCHF
      2 and HFE-347pc-f is CHF
      2 CF
      2 OCH
      2 CF
      3 defined as the code of hydrofluoroethers.
      COPYRIGHT: (C)1999,JPO
    • 要解决的问题:提供对全球环境具有最小影响并具有作为清洗溶剂,传热介质等的高性能的氢氟醚组合物。解决方案:该拟共沸组合物选自以下四种组合物(i )至(iv); (i)由66-92重量%的HFE-245mf和34-8重量%的HFE-254pc组成的拟共沸组合物,(ii)由68-98重量%的HFE组成的假共沸组合物 -245mf和32-2wt%的HFE-347mcf,(iii)由67-98wt%的HFE-245mf和33-2wt。%的HFE-347pc-f组成的拟共沸组合物和(iv )由55-96重量%的HFE-347mcf和45-4重量%的HFE-347pc-f组成的拟共沸组合物,其中HFE-245mf是CF 3 CH 2 OCHF 2,HFE-254pc是CHF 2 CF 2 OCH 3,HFE- 347mcf是CF 3 CF 2 CH 2 OCHF 2,HFE-347pc-f是定义为氢氟醚代码的CHF 2 CF 2 OCH 2 CF 3。